Engadget RSS Feedhttp://www.engadget.com
Engadgethttp://www.blogsmithmedia.com/www.engadget.com/media/feedlogo.gifEngadgethttp://www.engadget.com
en-usCopyright 2015 AOL Inc. The contents of this feed are available for non-commercial use only.Blogsmith http://www.blogsmith.com/http://www.engadget.com/2012/01/05/lenovo-and-via-technologies-a30-internet-tv-set-top-box-bumps-up/?utm_medium=feed&utm_source=Feed_Classic&utm_campaign=Engadget&ncid=rss_semi
http://www.engadget.com/2012/01/05/lenovo-and-via-technologies-a30-internet-tv-set-top-box-bumps-up/http://www.engadget.com/2012/01/05/lenovo-and-via-technologies-a30-internet-tv-set-top-box-bumps-up/?utm_source=Feed_Classic&utm_medium=feed&utm_campaign=Engadget#commentsLenovo's known for making quality computers, but the company's plans for a television set top box have been in the works for months, and now the day has finally come. Lenovo, along with VIA Technologies, has launched the A30 internet TV device that packs a 1.2GHz VIA Nano CPU and VX900 media processor. Further hardware details are scarce at this point, but we do know that the A30 will have a BesTV service providing new and exclusive content, including movies of unknown origin "within a month of their release date," along with picture-in-picture functionality and, of course, internet access. There's mobile functionality too, as your smartphone can serve as both the box's remote and as an additional screen on which to view content. Naturally, Lenovo's not telling how much it'll cost, but our friends in the Far East will be able to pick one up in Q1 of 2012. PR after the break.

We've seen plenty of breakthroughs involving nanowires over the years, but none of those have involved an actual programmable processor -- until now, that is. That particular "world's first" was just announced by a team of researchers from Harvard University and the MITRE Corporation this week, and it's being described as nothing short of a "quantum jump forward in the complexity and function of circuits built from the bottom up." As for the processor itself, it consists of an array of nearly 500 germanium nanowires that have been criss-crossed with metal wires on a chip that's just 960 micrometers (or less than 1 millimeter) square. That becomes an actual processor when the researchers run a high voltage through the metal wires and switch the individual intersections off and on at will -- we're simplyfing things a bit, but you get the idea. What's more, the researchers note that the architecture is fully scalable, and promises to allow for the assembly of "much larger and ever more functional nanoprocessors." Head on past the break for the official press release.